One of the key challenges of material science currently is the design of multifunctional "smart" materials combining features from both molecular and supramolecular levels. Pursuing the strategy of amplification and transduction of light-induced motion of small molecules (photoswitches) across increasing length scales to macroscopic level, a novel polymer composite based on shape-reconfigurable microparticles is designed. The composite represents soft elastic matrix filled with photoactive microparticles of liquid crystal (LC) polymer bearing azobenzene moieties. Illumination of the composite film with polarized light results in a dramatic deformation of the microparticles such that the initially spherical shape becomes elongated along the ...
We propose optically reconfigurable polymeric microstructures. Azopolymer-PMMA composite is pre-stru...
Remote light exposure of photoresponsive liquid crystalline polymers has drawn great attention over ...
\u3cp\u3eExternally induced color- and shape-changes in micrometer-sized objects are of great intere...
One of the key challenges of material science currently is the design of multifunctional “smart” mat...
Liquid crystalline polymers are attractive materials for untethered miniature soft robots. When they...
Azobenzene liquid crystal polymers offer the potential to fabricate autonomously operated actuators ...
A reconfigurable actuator is a stimuli-responsive structure that can be programmed to adapt differen...
Smart materials adapt to, rather than resist, changes to their environment. In Nature, a variety of ...
Well-defined gradients in molecular alignment have been used as tools to generate large amplitude, l...
Photoresponsive behaviors are studied in hybrid liquid-crystalline (LC) films prepared with light-re...
Nature is a constant source of inspiration for materials scientists, fueling the dream of mimicking ...
Liquid crystalline polymers (LCP) have attracted recent interest due to their ability to combine the...
Light-induced shape transformations represent a fundamental step towards the emergence of adaptive m...
The motion of artificial molecular machines has been amplified into the shape transformation of poly...
We propose optically reconfigurable polymeric microstructures. Azopolymer-PMMA composite is pre-stru...
Remote light exposure of photoresponsive liquid crystalline polymers has drawn great attention over ...
\u3cp\u3eExternally induced color- and shape-changes in micrometer-sized objects are of great intere...
One of the key challenges of material science currently is the design of multifunctional “smart” mat...
Liquid crystalline polymers are attractive materials for untethered miniature soft robots. When they...
Azobenzene liquid crystal polymers offer the potential to fabricate autonomously operated actuators ...
A reconfigurable actuator is a stimuli-responsive structure that can be programmed to adapt differen...
Smart materials adapt to, rather than resist, changes to their environment. In Nature, a variety of ...
Well-defined gradients in molecular alignment have been used as tools to generate large amplitude, l...
Photoresponsive behaviors are studied in hybrid liquid-crystalline (LC) films prepared with light-re...
Nature is a constant source of inspiration for materials scientists, fueling the dream of mimicking ...
Liquid crystalline polymers (LCP) have attracted recent interest due to their ability to combine the...
Light-induced shape transformations represent a fundamental step towards the emergence of adaptive m...
The motion of artificial molecular machines has been amplified into the shape transformation of poly...
We propose optically reconfigurable polymeric microstructures. Azopolymer-PMMA composite is pre-stru...
Remote light exposure of photoresponsive liquid crystalline polymers has drawn great attention over ...
\u3cp\u3eExternally induced color- and shape-changes in micrometer-sized objects are of great intere...